-- | This module provides a short introduction to get users started using -- Trifecta. The key takeaway message is that it’s not harder, or even much -- different, from using other parser libraries, so for users familiar with one -- of the many Parsecs should feel right at home. -- -- __The source of this file is written in a literate style__, and can be read -- top-to-bottom. module Text.Trifecta.Tutorial where import Control.Applicative import Text.Trifecta -- | First, we import Trifecta itself. It only the core parser definitions and -- instances. Since Trifecta on its own is just the parser and a handful of -- instances; the bulk of the utility functions is actually from a separate -- package, /parsers/, that provides the usual parsing functions like -- 'manyTill', 'between', and so on. The idea behind the /parsers/ package is -- that most parser libraries define the same generic functions, so they were -- put into their own package to be shared. Trifecta reexports these -- definitions, but it’s useful to keep in mind that the documentation of -- certain functions might not be directly in the /trifecta/ package. importDocumentation :: docDummy importDocumentation = error "Auxiliary definition to write Haddock documetation for :-)" -- | In order to keep things minimal, we define a very simple language for -- arithmetic expressions. data Expr = Add Expr Expr -- ^ expr + expr | Lit Integer -- ^ 1, 2, -345, … deriving (Show) -- | The parser is straightforward: there are literal integers, and -- parenthesized additions. We require parentheses in order to keep the example -- super simple as to not worry about operator precedence. -- -- It is useful to use /tokenizing/ functions to write parsers. Roughly -- speaking, these automatically skip trailing whitespace on their own, so that -- the parser isn’t cluttered with 'skipWhitespace' calls. 'symbolic' for -- example parses a 'Char' and then skips trailing whitespace; there is also the -- more primitive 'char' function that just parses its argument and nothing -- else. parseExpr :: Parser Expr parseExpr = parseAdd <|> parseLit where parseAdd = parens $ do x <- parseExpr _ <- symbolic '+' y <- parseExpr pure (Add x y) parseLit = Lit <$> integer -- | We can now use our parser to convert a 'String' to an 'Expr', -- -- @ -- parseString parseExpr mempty "(1 + (2 + 3))" -- @ -- -- > Success (Add (Lit 1) (Add (Lit 2) (Lit 3))) -- -- When we provide ill-formed input, we get a nice error message with an arrow -- to the location where the error occurred: -- -- @ -- parseString parseExpr mempty "(1 + 2 + 3))" -- @ -- -- > (interactive):1:8: error: expected: ")" -- > 1 | (1 + 2 + 3))<EOF> -- > | ^ examples :: docDummy examples = error "Haddock dummy for documentation"